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I've been looking for the answer 'how to use 'BSWAP' for lower 32-bit sub-register of 64-bit register.' For example, "0x0123456789abcdef" is inside RAX register, and I want to change it to "0x01234567efcdab89" with a single instruction. (because of performance) So I tried following inline function:

#define BSWAP(T) {  \
    __asm__ __volatile__ (  \
            "bswap %k0" \
            : "=q" (T)  \
            : "q" (T)); \

And the result was "0x00000000efcdab89". TT-TT I, actually, don't understand why the compiler acts like this. Does anybody know the efficient solution?

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Down-voting for overuse of question marks –  davr Oct 7 '08 at 16:53
Replaced 64-bit tag with 64bit, because there are more questions tagged 64bit. –  Brad Gilbert Oct 16 '08 at 23:41

2 Answers 2

up vote 5 down vote accepted

Ah, yes, I understand the problem now:

the x86-64 processors implicitly zero-extend the 32-bit registers to 64-bit when doing 32-bit operations (on %eax, %ebx, etc). This is to maintain compatibility with legacy code that expects 32-bit semantics for these registers, as I understand it.

So I'm afraid that there is no way to do ror on just the lower 32 bits of a 64-bit register. You'll have to do use a series of several instructions...

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Check the assembly output generated by gcc! Use the gcc -s flag to compile the code and generate asm output.

IIRC, x86-64 uses 32-bit integers by default when not explicitly directed to do otherwise, so this may be (part of) the problem.

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